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Geopolymer Based on Mechanically Activated Air-cooled Blast Furnace Slag

Ilda Tole, Magdalena Rajczakowska, Abeer M. Humad, Ankit Kothari, Andrzej Ćwirzeń

2020Materials31 citationsDOIOpen Access PDF

Abstract

An efficient solution to increase the sustainability of building materials is to replace Portland cement with alkali-activated materials (AAM). Precursors for those systems are often based on water-cooled ground granulated blast furnace slags (GGBFS). Quenching of blast furnace slag can be done also by air but in that case, the final product is crystalline and with a very low reactivity. The present study aimed to evaluate the cementitious properties of a mechanically activated (MCA) air-cooled blast furnace slag (ACBFS) used as a precursor in sodium silicate alkali-activated systems. The unreactive ACBFS was processed in a planetary ball mill and its cementing performances were compared with an alkali-activated water-cooled GGBFS. Mixes based on mechanically activated ACBFS reached the 7-days compressive strength of 35 MPa and the 28-days compressive strength 45 MPa. The GGBFS-based samples showed generally higher compressive strength values.

Topics & Concepts

Ground granulated blast-furnace slagCompressive strengthMaterials scienceCementitiousSodium silicateBlast furnaceMetallurgySlag (welding)Air blastGeopolymerComposite materialPortland cementCementEngineeringMining engineeringConcrete and Cement Materials ResearchInnovative concrete reinforcement materialsRecycling and utilization of industrial and municipal waste in materials production
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